Method and apparatus for charging a battery

1. A method in an electronic device, comprising: detecting, by the electronic device, connection to a battery charger, only in response to receiving a constant voltage on a USB D+ line; bi-directionally communicating with the battery charger on a USB D-line, wherein bi-directionally communicating with the battery charger further comprises: transmitting a PING signal to the battery charger; and receiving a PING signal from the battery charger, responsive to transmitting the PING signal to the battery charger; performing negotiation for at least one of a current level and a voltage level based on data exchanged by the bi-directional communication on the USB D-line; and charging a battery of the electronic device based on the at least one of the current level and the voltage level, and wherein the PING signal to the battery charger and the PING signal from the battery charger comprises a single constant voltage pulse signal for a predetermined time.

2. The method of claim 1 , wherein bi-directionally communicating with the battery charger on the USB D-line, further comprises receiving from the battery charger a signal, wherein the signal is a list of supported signal characteristics identifying at least one of (i) a first plurality of voltage levels that the battery charger is capable of providing and (ii) a second plurality of current levels that the battery charger is capable of providing; generating, based on the list, a second request for at least one of a second voltage level and a second current level; and transmitting the second request to the battery charger.

3. The method of claim 2 , wherein generating the second request includes retrieving from the list a code corresponding to the second voltage level and inserting the code into the second request.

4. The method of claim 2 , wherein generating the second request includes retrieving from the list a code corresponding to the second current level and inserting the code into the second request.

5. The method of claim 1 , wherein bi-directionally communicating with the battery charger comprises receiving from the battery charger a signal wherein the signal is NACK, further comprising re-transmitting to the battery charger a second request for at least one of a second voltage level and a second current level.

6. The method of claim 1 , wherein bi-directionally communicating with the battery charger on the USB D line further comprises: transferring one or more bytes, each of the one or more bytes having a parity bit, to the battery charger responsive to receiving the PING signal from the battery charger.

7. The method of claim 6 , wherein bi-directionally communicating with the battery charger on the USB D line further comprises: receiving another PING signal from the battery charger after transferring the one or more bytes.

8. The method of claim 7 , wherein bi-directionally communicating with the battery charger on the USB D-line further comprises: receiving one or more bytes from the battery charger, each of the one or more bytes having a parity bit, after receiving the another PING signal.

9. The method of claim 1 , further comprising: setting a clock in the electronic device, based on the received PING signal from the battery charger.

10. An electronic device comprising a processing circuitry configured to: detect, by the electronic device, connection to a battery charger, only in response to receiving a constant voltage on a USB D+ line; bi-directionally communicate with the battery charger on a USB D-line, wherein bi-directionally communicating with the battery charger further comprises: transmit a PING signal to the battery charger; and receive a PING signal from the battery charger, responsive to transmitting the PING signal to the battery charger; perform negotiation for at least one of a current level and a voltage level based on data exchanged by the bi-directional communication on the USB D-line; and charge a battery based on the at least one of the current level and the voltage level, and wherein the PING signal to the battery and the PING signal from the battery charger comprises a single constant voltage pulse signal for a predetermined time.

11. The electronic device of claim 10 wherein bi-directionally communicate with the battery charger on the USB D-line, further comprises: receiving a list of supported signal characteristics, the list identifying at least one of (i) a first plurality of voltage levels that the battery charger is capable of providing and (ii)a second plurality of current levels that the battery charger is capable of providing; generating, based on the list of supported signal characteristics, a second request for at least one of a second voltage level and a second current level; and transmitting the second request to the battery charger.

12. The electronic device of claim 11 , wherein generating the second request includes retrieving from the list a code corresponding to the second voltage level and inserting the code into the second request.

13. The electronic device of claim 11 , wherein generating the second request includes retrieving from the list a code corresponding to the second current level and inserting the code into the second request.

14. The electronic device of claim 10 , wherein bi-directionally communicate with the battery charger comprises receiving from the battery charger a signal, wherein the signal is NACK, the processing circuitry is further configured to re-transmitting to the battery charger a second request for at least one of a second voltage level and a second current level.

15. The electronic device of claim 10 , wherein bi-directionally communicating with the battery charger on the USB D-line further comprises: transferring one or more bytes, each of the one or more bytes having a parity bit, to the battery charger responsive to receiving the PING signal from the battery charger.

16. The electronic device of claim 15 , wherein bi-directionally communicating with the battery charger on the USB D-line further comprises: receiving another PING signal from the battery charger after transferring the one or more bytes.

17. The electronic device of claim 16 , wherein bi-directionally communicating with the battery charger on the USB D-line further comprises: receiving one or more bytes from the battery charger, each of the one or more bytes having a parity bit after receiving the another PING signal.

18. The electronic device of claim 10 , wherein the processing circuitry is further configured to: set a clock in the electronic device, based on the received PING signal from the battery charger.